Photophysical Study and Biological Applications of Synthetic Chalcone-Based Fluorescent Dyes

Wangngae, Sirilak; Chansaenpak, Kantapat; Nootem, Jukkrit; Ngivprom, Utumporn; Aryamueang, Sirimongkon; Lai, Rung‐Yi; Kamkaew, Anyanee

doi:10.3390/molecules26102979

Cited by 15 publications

(9 citation statements)

References 49 publications

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“…Chalcones are unexplored as DNA fluorescent probes, but the free dyes exhibit brightness comparable to commercial fluorophores along with FMR character. [33][34][35] Herein, we demonstrate, to the best of our knowledge, the first example of an internal label which is capable of aldehyde capture via a latent enolate to generate a donor-acceptor FMR library (Figure 1). Reactions proceed in high yield when catalyzed by sodium hydroxide, with relative synthetic simplicity.…”

Section: Introductionmentioning

confidence: 89%

On-Strand Aldehyde Capture by an Indanone Building Block: A Modular Aldol Approach for Fluorescent Molecular Rotor Nucleobase Surrogates

Johnson

Murray

Bycraft

et al. 2022

Preprint

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Fluorescent molecular rotors (FMRs) are critical tools for monitoring nucleic acid structure and function. Many valuable probes are capable of sitespecific insertion into oligonucleotides, although the methods of doing so can be arduous and lack modularity. Development of modular and more user amenable insertion methods is thus crucial to expand the biotechnological applications of oligonucleotides in what is a rapidly expanding field. Herein we report the utility of 6-hydroxy-indanone (6HI) with a glycol backbone for on-strand aldehyde capture as a modular aldol approach with synthetic ease for site-specific insertion of internal FMRs. The 6HI phosphoramidite is produced in two steps and inserted into DNA using solid-phase synthesis. On-strand aldol with aromatic aldehydes containing N-donors proceeds in quantitative yield via sodium hydroxide to create a highly functional and unique library of FMR chalcones with emissions that span the visible region (em 490- 680 nm). The FMRs provide turn-on fluorescence (Irel, 2-75-fold) upon hybridization with probe brightness up to 15,000 cm-1M-1 . The library also contains FRET pairs and dual emission probes, suitable for ratiometric sensing. The simplicity and functionality of the 6HI building block permits its future wide-spread use in a range of biosensing applications.

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Section: Introductionmentioning

confidence: 89%

On-Strand Aldehyde Capture by an Indanone Building Block: A Modular Aldol Approach for Fluorescent Molecular Rotor Nucleobase Surrogates

Johnson

Murray

Bycraft

et al. 2022

Preprint

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“…Chalcone derivatives containing the ketoethylenic group (-CO-CH=CH-) provide a rich source for the synthesis of optically active compounds [ 3 ]. These derivatives have great potential for applications due to their specific electronic structures (i.e., a completely delocalized electron system) [ 4 ], photophysical properties [ 5 , 6 , 7 ], and biological activities, such as being antimicrobial [ 8 ], antioxidant [ 9 ], anticonvulsant [ 10 ], inhibitors of inflammatory markers [ 11 ], and antifungal agent [ 12 ]. In recent years, dibenzylidene cyclohexanone derivatives have been used as corrosion inhibitors [ 13 ], fluorescent sensors for detecting Hg 2+ [ 14 ], and chromium ions in aqueous media [ 15 ].…”

Section: Introductionmentioning

confidence: 99%

Solvatochromism, Acidochromism and Photochromism of the 2,6-Bis(4-hydroxybenzylidene) Cyclohexanone Derivative

Homocianu¹,

Serbezeanu²,

Vlad‐Bubulac³

2023

IJMS

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In this paper, we studied the photophysical behavior of 2,6-bis(4-hydroxybenzylidene) cyclohexanone (BZCH) under the influence of various stimuli. The photophysical properties were correlated with different solvent parameters, such as the Kamlet–Abraham–Taft (KAT), Catalán, and Laurence solvent scales, suggesting that the behavior of BZCH is influenced by both nonspecific and specific solvent-solute interactions. The Catalán solvent dipolarity/polarizability parameters were found to have a significant role in the solvatochromic behavior, which is also confirmed by the KAT and Laurence models. The acidochromism and photochromism properties of this sample in dimethylsulfoxide and chloroform solutions were also investigated. The compound showed reversible acidochromism after the addition of dilute NaOH/HCl solutions, accompanied by a change in color and the appearance of a new absorption band (514 nm). The photochemical behavior was also examined by irradiating BZCH solutions with both 254 and 365 nm light.

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“…In this regard, we and others developed small molecule-based uorescent probes for biological applications such as cellular imaging and microorganism targeting. [12][13][14] As a part of our continuing endeavour to develop uorescent probes, we hypothesized that modication of the small molecule vinyl sulfones would affect its photophysical characteristics. Due to the lack of conclusive study on the photophysical and imaging features of vinyl sulfone, we present here the chemical reduction of non-uorescent probes, vinyl sulfone-NO 2 (3), to uorescent probes, vinyl sulfone-NH 2 (4).…”

Section: Introductionmentioning

confidence: 99%

“…In this regard, we and others developed small molecule-based fluorescent probes for biological applications such as cellular imaging and microorganism targeting. 12–14…”

Section: Introductionmentioning

confidence: 99%

Unraveling the photophysical characteristics and biological applications of vinyl sulfones as viscosity sensors

et al. 2023

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Photophysical Study and Biological Applications of Synthetic Chalcone-Based Fluorescent Dyes

Cited by 15 publications

References 49 publications

On-Strand Aldehyde Capture by an Indanone Building Block: A Modular Aldol Approach for Fluorescent Molecular Rotor Nucleobase Surrogates

On-Strand Aldehyde Capture by an Indanone Building Block: A Modular Aldol Approach for Fluorescent Molecular Rotor Nucleobase Surrogates

Solvatochromism, Acidochromism and Photochromism of the 2,6-Bis(4-hydroxybenzylidene) Cyclohexanone Derivative

Unraveling the photophysical characteristics and biological applications of vinyl sulfones as viscosity sensors

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